Energy changes

Created by

Alicja Mazurkiewicz

Cards (26)

Exothermic reaction 
A reaction that transfers energy to the surroundings so the temperature of the surroundings increases
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Endothermic reaction
A reaction that takes in energy from the surroundings so the temperature of the surroundings decreases
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Exothermic reactions 
Combustion
Many oxidisation reactions
Neutralisation
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Endothermic reactions 
Thermal decomposition
Reaction of citric acid and sodium hydrogencarbonate
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Everyday examples of exothermic reactions
Self-heating cans (e.g. for coffee)
Hand warmers
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Everyday examples of endothermic reactions 
Sports injury packs
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Activation energy 
Minimum amount of energy that particles must have to react
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Reaction profile 
1. Shows the relative energies of reactants and products
2. Shows the activation energy
3. Shows the overall energy change of a reaction
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Exothermic reaction 
Products have less energy than reactants
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Endothermic reaction 
Products have more energy than reactants
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Energy changes during a chemical reaction
1. Energy must be supplied to break bonds in the reactants
2. Energy is released when bonds in the products are formed
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The sum of energy taken in to break bonds - the sum of energy released to form bonds = the overall energy change
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Endothermic reaction 
Energy taken in to break bonds > energy released when bonds are formed
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Exothermic reaction 
Energy taken in to break bonds < energy released when bonds are formed
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Cells 
Contain chemicals which react to produce electricity
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Voltage produced by a cell 
Depends on type of electrode & electrolyte
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Making a simple cell 
Connect two different metals in contact with an electrolyte
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Batteries 
Two or more cells connected together in series to provide a greater voltage
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Non-rechargeable cells & batteries
Chemical reactions stop when one of the reactants has been used up
Alkaline batteries are non-rechargeable
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Rechargeable cells & batteries
Can be recharged because the chemical reactions are reversed when an external electrical current is supplied
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Fuel cells
Supplied by an external source of fuel (e.g. hydrogen) and oxygen or air, the fuel is oxidised electrochemically within the fuel cell to produce a potential difference
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Overall reaction in a hydrogen fuel cell involves the oxidation of hydrogen to produce water
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Hydrogen fuel cells
Offer a potential alternative to rechargeable cells & batteries
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Advantages of hydrogen fuel cells over rechargeable cells & batteries
Fuel cells can be used constantly provided fuel keeps being put in
Can be recharged by reversing reaction, so fuel doesn't need to keep being supplied
Hydrogen is a gas so needs to be stored at high pressure and so is harder to transport
Hard to dispose of - non-biodegradable
Only produces water when burnt
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Disadvantages of hydrogen fuel cells compared to rechargeable cells & batteries 
Will eventually stop working
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Reactions in a hydrogen fuel cell
1. At the anode (positive electrode): H2(g) -> 2e- + 2H+(aq)
2. At the cathode (negative electrode): 4H+(aq) + O2(g) + 4e- -> 2H2O(g)
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